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Genetics is the study of inheritance – the passing of traits from parent to offspring What is Genetics?
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Austrian Monk - Bred pea plants cross-pollinated true breeding parents (P) P = parental generation raised offspring & then observed traits (F 1 ) F = filial gen. (offspring) allowed F 1 offspring to self- pollinate & observed traits in next generation (F 2 )
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F 2 generation 3:1 75% purple-flower peas 25% white-flower peas P 100% F 1 generation (hybrids) 100% purple-flower peas X true-breeding purple-flower peas true-breeding white-flower peas self-pollinate
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Traits come in alternate versions: called alleles purple flower and white flower color alleles – different version of same gene. different alleles vary in the sequence of nucleotides (building blocks of DNA)
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For each characteristic, an organism inherits 2 alleles, 1 from each parent ◦ diploid organism inherits 2 sets of chromosomes, 1 from each parent homologous chromosomes like using 2 different websites for research Wikipedia About.com What is the advantage of being diploid???
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Paired genes separate during the formation of reproductive cells and the gamete only receives one gene from the pair During meiosis, alleles segregate When homologous chromosomes separate During anaphase I ◦ each allele for a trait is packaged into a separate gamete
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Genes for different characteristics are distributed (sorted) to gametes independently. This means that traits produced by dominant genes are not necessarily shown together. Does red hair ALWAYS sort with green eyes? Genes are only inherited together if they appear on the same chromosome.
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Some traits “mask” others ◦ purple & white flower colors are separate traits that do not blend purple x white ≠ light purple purple masked white ◦ dominant allele Directs the formation of a functioning protein Creates the characteristic masks other alleles ◦ recessive allele Has directions for a malfunctioning protein – wrong shape (doesn’t work) Does not affect characteristic allele producing functional protein mutant allele malfunctioning protein homologous chromosomes
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Indicate the two alleles that an individual inherited for a specific trait. ◦ One allele on each homologous chromosome ◦ Two allele conditions: Homozygous (2 of same allele) Must specify if they are dominant or recessive alleles Heterozygous (2 different alleles) ◦ For peas: 3 possible genotypes for flower color Homozygous dominant (PP) Homozygous recessive (pp) Heterozygous (Pp)
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Physical appearance of the trait. Depends on the genotype Recessive phenotype only present if genotype is homozygous recessive (pp) = white flower Dominant phenotypes: ◦ Homozyous dominant (PP) = purple flower ◦ Heterozygous (Pp) = purple flower
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Show the possible genotypic outcomes from crossing the parents (fertilization). ◦ Gives probability of offspring genotypes Now lets assume that Black-haired rabbits are dominant to white haired rabbits B = black hair b = white hair
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Probability of phenotype: 75% black 25% white
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Heterozygous black rabbit with a white rabbit What are the offspring phenotypes?
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2006-2007 Beyond Mendel’s Laws: Other Patterns of Inheritance
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Heterozygote shows an intermediate, blended phenotype ◦ example: RR = red flowers rr = white flowers Rr = pink flowers R is not completely dominant – so does not make enough color (pigment) to completely cover “white” RRRrrr
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RW male / sperm R W female / eggs RR RWWW RW 25% 1:2:1 25% 50% 25% 1:2:1 % genotype % phenotype RR RW WW 25% 50% RW x RW
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2 alleles are both equally dominant ◦ affect the phenotype equally & separately not blended phenotype ◦ Example: ABO blood groups ◦ 3 alleles I A, I B, i I A & I B alleles are co-dominant to each other both cell markers (proteins) are produced both I A & I B are dominant to i allele ◦ Cell surface markers act as ID cards
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Both red and white hairs are expressed in the phenotype – not pink hairs!
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Also exhibits Multiple Alleles when there are more than two possible alleles for a trait Three alleles lead to four blood types; A, B, AB and O Blood type A is represented by I A I A or I A i Blood type B is represented by I B I B or I B i Blood type AB is represented by I A I B Blood type O is represented by ii
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Some phenotypes are determined by 2 or more genes ◦ phenotypes exist as a continuum many more than 2 possibilities ◦ human traits include: skin color height weight eye color intelligence Hair color
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autosomal chromosomes sex chromosomes
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The sex of the offspring is determined by the presence or absence of the Y chromosome ◦ If the offspring is XX, it is a female, if it is XY, it is a male Not all genes on the X chromosome are “gender” traits ◦ Some are for other traits that both males and females have Traits on the X chromosome are inherited in a different pattern than those traits on the autosomes Examples of traits that are sex-linked include baldness and red-green color blindness
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Sex-linked genes are always on the X chromosome Lets assume that the colorblindness allele is recessive (X a ) How many children will be colorblind?
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